Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoked in theories of aging, cancer, genetic disease, and other common phenomena. However, the prevalence of AP, which genes are subject to AP, and to what extent and how AP may be resolved remain unclear. By measuring the fitness difference between the wild-type and null alleles of ∼5,000 nonessential genes in yeast, we found that in any given environment, yeast expresses hundreds of genes that harm rather than benefit the organism, demonstrating widespread AP. Nonetheless, under sufficient selection, AP is often resolvable through regulatory evolution, primarily by trans-acting changes, although in one case we also detected a cis-acting change a...
A long-standing and central question in evolutionary biology is the molecular genetic mechanisms of ...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Unbiased genetic dissection of widely observable phenotypic traits in the wild haslong been the goal...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
A fundamental question in biology is whether variation in organisms primarily emerges as a function ...
Recent genome sequencing efforts have revealed astounding genetic diversity between individuals in t...
Pleiotropy-when a single mutation affects multiple traits-is a controversial topic with far-reaching...
<div><p>High-throughput sequencing has enabled genetic screens that can rapidly identify mutations t...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
A central goal of evolutionary genetics is to understand, at the molecular level, how organisms adap...
Abstract The consequence of a mutation can be influenced by the context in which it operates. For ex...
Adaptive evolution is generally assumed to progress through the accumulation of beneficial mutations...
A long-standing and central question in evolutionary biology is the molecular genetic mechanisms of ...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Unbiased genetic dissection of widely observable phenotypic traits in the wild haslong been the goal...
Antagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently invoke...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
A fundamental question in biology is whether variation in organisms primarily emerges as a function ...
Recent genome sequencing efforts have revealed astounding genetic diversity between individuals in t...
Pleiotropy-when a single mutation affects multiple traits-is a controversial topic with far-reaching...
<div><p>High-throughput sequencing has enabled genetic screens that can rapidly identify mutations t...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
A central goal of evolutionary genetics is to understand, at the molecular level, how organisms adap...
Abstract The consequence of a mutation can be influenced by the context in which it operates. For ex...
Adaptive evolution is generally assumed to progress through the accumulation of beneficial mutations...
A long-standing and central question in evolutionary biology is the molecular genetic mechanisms of ...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Unbiased genetic dissection of widely observable phenotypic traits in the wild haslong been the goal...